Percentage-balance.



P. E, YOUNG.

PERCENTAGE BALANCE.

APPLICATION FILED DEC- I6. 1914.

Patented Oct. 23, 1917.

WITNESSES ATTORNEYS dwirlmm.

PHILIP E. YOUNG, OF FAIBHAVEN, MASSACHUSETTS.

PERCENTAGE-BALANCE.

Specification of Letters Patent.

Application filed December 16, 1914. Serial No. 877,460.

To all whom it may concern:

Be it known that I, PHILIP E. YOUNG, a I

provements in instruments for determining the di-- relative masses of different bodies b rect weighing method and particu arly relates to such an instrument designed for use where the fractional weights of different ingredients in a compound with reference to the aggregate weight of the compound must be determined quickly and accurately.

One of the objects of the invention is to provide such an instrument for indicating directly on a suitably graduated scale the relative weight of the body with reference to some unit mass with but one balancing operation and without resort to mathematical computations.

Incidental to this object the invention provides for the direct reading of the relative weights in percentages of either weight with the other weight as unity.

Another object of the invention is to pro vide a device of the above indicated character, which while retaining all of the advantages of a compact and sensitive balance, also provides for a refined and minute, subdivision of the graduated scale spread over a long run.

One means of obtaining these objects is to provide an equal arm balance fulcrumed at its center of gravity and provided with a relatively long pointer movable over a quadrant scale of relatively large radius graduated in numerical values indicating fractional weights of a body with reference to a standard weight and in the illustrated embodiment, indicating percentages of this standard weight with the percentage marks so spaced that the pointer will swing through an angle which will indicate how much heavier or lighter the body is than the standard weight Various other objects and advantages of the invention'will be in part obvious from an inspection of the accompanying drawings and in part will be more fully set forth in the following particular description of one form of mechanism embodying my invention, and the invention also consists in certain new and novel features of construction and combination of parts hereinafter set forth and claimed.

Figure 1 is a front elevation of an instrument disclosing a preferred embodiment of my invention having superimposed thereon an explanatory diagram illustrating the mathematics of the device; and

Fig. 2 is an end elevation of the device shown in Fig. 1.

The instrument illustrated is an equal arm balance including a frame 1 comprising a broad and preferably heavy base plate 2 fixed to which is a support 3 formed of an upright 4: the upper end of which is bent forwardly to form a bracket 5 for carrying the depending supporting face plate 6. The support carries abalancing system which in cludes a beam 7 pivotally mounted between the upright d and face plate 6 and free to oscillate in a vertical plane. The beam is mounted on a pivot pin 8 journaled in end bearings 9 threaded through the upright and face plate. The pivot pin provides the fulcrum 0 for the balance and passes through the center of gravity of the system. The beam comprises a pair of balance arms projecting on opposite sides of the fulcrum with the outer end of each arm formed into a depending portion 10. A weight pan 11 is swingingly supported on pivots 12 extending transversely of the depending portions 10, which pivots may be considered as the point of application of the weight forces acting on the system. These pivotal points are arranged -L-units of distance from the fulcrum o. The lines connecting these points are constant in length irrespective of the angular position of the balance when in operation and form an angle a with the line V-passing vertically through the fulcrum Patented Oct. 23, 191 a.

when the system is balanced. A pointer 13. v.

extends radially from the fulcrum to indicate the angle of movement of the system and is made relatively long so as to magnify this movement. In the embodiment of the invention herein illustrated the pointer is integral with the beam, depends therefrom at right angles to the axis of oscillation and forms an element of the balancin system.

A counterbalancing weight in t e form of a ball 14 is affixed to the beam on the side thereof opposite the pointer to raise the center of gravity of the system so that the axis of rotation of the system will pass throu h the center of gravity of this system. T e extreme end of the pointer is arranged to move over a suitably curved scale 15 which scale is disposed on one or both sides of that position which the pointerwill assume when both arms of the beam are subjected to equal balancing forces. The scale is in the form of a quadrant with its lower portion afiixed to the base and arranged so as to extend substantially in the plane of movement of the pointer and in a curve about the fulcrum as a center. The scale is provided with a zero mark positioned thereon opposite the position assumed by the pointer when the two arms of the beam are equally weighted and preferably disposed in a line directly below the fulcrum.

The scale is graduated from the zero mark in each direction of movement of the pointer therefrom in terms expressing fractional parts of one of the weights acting on the beam with the other weight considered as unity. Preferably these fractions are expressed as percentages and the graduations are so spaced on one side of the zero mark that the pointer in swinging to any value M passes over an angle equal to 200 cot n tan a and in swinging to a value Mon the other s1de of the zero mark passes over an angle 22 wt M tan a The weight S may be a unit weight of some system of weighing, such for instance as 1 gram or 1 pound or it may be a weight indieating 100% of the composition, the ingredients of which are to be weighed. The heav ier weight will cause the pointer to swing through an angle qb over an are on the scale to a position indicating the percentage difference in weight between the body which is weighed and the standard weight. The two arms will rest in a position of balanced equilibrium in which the arm carrying the Weight S will form an angle with the vertical line V through the fulcrum which may be indicated as G angular units and the similar angle formed by the arm carrying the weight S may be indicated as B angular units. These values on the scale indicate percentage differences in weights between the weighed body and the standard weight as will be noted by reference to the diagram on Fig. 1:

B:a+ where S is less than S B= zb where S is greater than S G=a where S -is less than S G=a+ where S is greater than S First when S is greater than of the masses 2 and S from the vertical line passing through the fulcrum.

Therefore s, sin B=s sin e a sin G S sin B and g: S 100 increase M substituting sin G S sin B in above sin'G -g- 1 1OO M sin G M sin B 10?) 1 and a B a G=a+ where equals angle of motion.

Therefore sin G sin B E M sin B 100 clearing fractions and simplifying 2cosasin M sin 0! cos cos a sin 100 -tan a cot -1 tan a cot -1+ as a is constant 200 cot *Y) tan a Secondly where S is less than S Sax SY y sin G sin B-sin G sin oz cos +oos a sin 10 sin 0: cos

2cosasin sin B 100:

sin a'cos +cos a sin +cos a sin sin a cos +cos a sin Im time cot +1= where o is angle of motion of pointer from vertical position. Therefore When S is greater than 8,.

200 =cotif tan a And when S is less than S,

By means of a device of this character it is prossible to read directly on the scale the relative weights of two bodies with but one operation which thus'elimmates a source of error inherent in multiplicity of welghings. The readings may be made extremely accurate by minimizing friction at the fulcrum,

after the other to the body pan of the balance with the pointer registering the perso centage sums of the different ingredients, until the entire 100% is added to the body pan.

While I have shown and described, and have pointed out in the annexed claims, certain novel features of my invention, it will be understood that various omissions, substitutions and changes in the form and details of the device illustrated and in its operation may be made by those skilled in the 40 art without departing from the spirit of the invention.

Having thus described my invention, I claim:

1. A percentage balance for use in determining the relative Weights of two bodies, comprising an equal arm beam, a pointer controlled by the movement of said beam, one of said arms having means for supporting a weight therefrom at a point of application, the other of said arms having means for supporting a body to be compared with the weight, said beam being fulcrumed at its center of gravity, a scale for said pointer, said scale having a zero mark thereon opposite the position assumed by the pointer of the bodies compared w1th the other, said.

pointer in its movement to any value M on the scale passing over an angle equal to the expression 200 wt If tan a and a is the an le between the vertical line through the fu crum and the line passing through the fulcrum and through the point of application of one of the weights on the beam.

2. A percentage balance for use in determining the relative weights of two bodies, comprising an equal arm beam, fulcrumed at its center of gravity, said beam having means for supporting the two bodies on opposite sides of the fulcrum and equidistant from the vertical line passing through the fulcrum, said beam having an angular movement from its normal position under the action of the overbalancing effect of the heavier of said weights, the an le of movement of the beam being equa to the expression 200 cot- IT tan a where M is percentage variation from one of the weights and a is the angle between the vertical passing through the fulcrum and the line passing through the fulcrum and through the point of application of the weights on the arms of the beam.

3. A device of the class described, comprising a balancing beam fulcrumed at its center of gravity, means for suspending unequal weights from adjacent opposite ends of said beam below the fulcrum and equall spaced from the vertical passing throug the beam fulcrum when the beam is horizontal whereby the overbalancing effect of the heavier of said weights will cause the beam to move over an angle proportionate to the overbalancing efl'ect and means including a pointer depending from the fulcrum of the beam for measur' this angle in percentage terms of oneof said weights.

4. A device of the class described comprising a balancing beam, fulcrumed at its center of gravit means for supporting weights from sai beam on opposite sides 0 its fulcrum below the same and equally spaced therefrom and from the vertical passin through the fulcrum when the beam, is orizontal and means for measuring the angular displacement of said beam in terms of a (proportion of one of the weights comwith the other when subjected to the action of unequal weights.

5. A device of the class described, comprising a balancing beam, means for su porting a standard mass from one of sald arms, means for supporting a compared mass from the other arm with said masses disposed below the fulcrum of the beam, said beam and supporting means fulcrumed at the center of gravity of the same, and

said beam having an angular movement un- -for measuring this angular movement in fractional terms of said standard arm.

6. A device of the class described, comprising an equal arm balancing beam adapted to have forces applied to each arm thereof below the fulcrum of the beam, said beam having a pointer extending from the fulcrum thereof for indicating the an 1e of movement of the beam when affected y an overbalancin force on one of the arms, a scale for said pointer indicating the angle of movement of the beam in terms expressing the proportion of the force acting on one of the arms in terms of the force acting on the other arm.

PHILIP E. YOUNG.

Witnesses:

CHAS. E. James, CHAS. A. DAMoN. 

